$10 Million Awarded to Digital Manufacturing and Design Innovation Institute

Personnel from the Rock Island Arsenal Joint Manufacturing and Technology Center gather for a photo at the Digital Manufacturing and Design Innovation Institute. Photo by Kimberly Conrad

The Department of Defense has awarded $10 million in funding to the Digital Manufacturing and Design Innovation Institute (DMDII), with an option of $20 million more over the upcoming five years to lead the digital future of manufacturing Feb. 21. This award is part of a new multi-year follow-on agreement with a ceiling of $60 million of government funding.

The Department of Defense will continue the strategic partnership with DMDII for the long term as part of the effort to reform DoD for greater performance and affordability in support of the National Defense Strategy.

“The Department of Defense wants to reaffirm our strategic relationship with the Digital Manufacturing and Design Innovation Institute. We are working together to develop cutting-edge digital technology and investing in a robust research and development infrastructure to promote global competitiveness on the part of U.S. manufacturers,” stated Robert Gold, Director, Technology & Manufacturing Industrial Base.

Founded in 2014, DMDII has invested approximately $94 million in more than 60 applied research projects nationwide. DMDII collaborates with the U.S Army’s Rock Island Arsenal, the nation’s largest government-owned weapons manufacturer. With the aim of getting equipment to U.S. Warfighters quickly, the arsenal and DMDII have used 3-D modeling to assess the arsenal’s manufacturing processes.

“American manufacturing must remain competitive since it underpins national and economic security,” said Tracy Frost, Pentagon’s director of the DoD Manufacturing Institutes and its Manufacturing Technology program.

DMDII’s mission is to enable United States manufacturers to make every part better than the last. That requires production lines to be embedded with software and sensors that connect to a network. The ability of manufacturing equipment to send and receive data in real time will enable the equipment to improve the manufacturing processes while learning from every part produced.